Double-diffusive two-fluid flow in a slippery channel: A linear stability analysis
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In this article, the effect of velocity slip at the walls on the linear stability characteristics of two-fluid three-layer channel flow was investigated in the presence of double diffusive (DD) phenomenon.Abstract:
The effect of velocity slip at the walls on the linear stability characteristics of two-fluid three-layer channel flow (the equivalent core-annular configuration in case of pipe) is investigated in the presence of double diffusive (DD) phenomenon. The fluids are miscible and consist of two solute species having different rates of diffusion. The fluids are assumed to be of the same density, but varying viscosity, which depends on the concentration of the solute species. It is found that the flow stabilizes when the less viscous fluid is present in the region adjacent to the slippery channel walls in the single-component (SC) system but becomes unstable at low Reynolds numbers in the presence of DD effect. As the mixed region of the fluids moves towards the channel walls, a new unstable mode (DD mode), distinct from the Tollman Schlichting (TS) mode, arises at Reynolds numbers smaller than the critical Reynolds number for the TS mode. We also found that this mode becomes more prominent when the mixed layer overlaps with the critical layer. It is shown that the slip parameter has nonmonotonic effect on the stability characteristics in this system. Through energy budget analysis, the dual role of slip is explained. The effect of slip is influenced by the location of mixed layer, the log-mobility ratio of the faster diffusing scalar, diffusivity, and the ratio of diffusion coefficients of the two species. Increasing the value of the slip parameter delays the first occurrence of the DD-mode. It is possible to achieve stabilization or destabilization by controlling the various physical parameters in the flow system. In the present study, we suggest an effective and realistic way to control three-layer miscible channel flow with viscosity stratification.read more
Citations
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Instability of viscoelastic compound jets
TL;DR: In this article, the axisymmetric instability of a viscoelastic compound jet is investigated, for which the constitutive relation is described by the Oldroyd B model.
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Core-annular miscible two-fluid flow in a slippery pipe: A stability analysis
TL;DR: In this paper, the linear stability of viscosity-stratified core-annular Poiseuille flow with slip at the wall was investigated in the presence of two scalars diffusing at different rates.
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Interfacial instability in pressure-driven core-annular pipe flow of a Newtonian and a Herschel–Bulkley fluid
R. Usha,Kirti Chandra Sahu +1 more
TL;DR: In this article, the linear stability characteristics of pressure-driven core-annular flow of a Newtonian core fluid and a Herschel-Bulkley annular fluid are investigated.
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Stability of slip channel flow revisited
Chunshuo Chai,Baofang Song +1 more
TL;DR: Lauga et al. as mentioned in this paper studied the stability of channel flow with streamwise and spanwise slip separately as two limiting cases of anisotropic slip and explore a broader range of slip length than previous studies did.
References
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TL;DR: In this article, both classical and modern aspects of hydrodynamic stability are systematically developed from the simplest physical problems, then progressing chapter by chapter to the most complex, considering linear and nonlinear situations, and analysing temporal and spatial stability.
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Effect of miscibility on the linear instability of two-fluid channel flow
TL;DR: In this paper, the authors extended the Yih model for interfacial instabilities in two-fluid channel flow and showed that when the critical layer of the dominant disturbance overlaps the viscosity-stratified layer, the instability is broadband and at low Reynolds number.
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Viscous fingering of a miscible reactive A + B → C interface: a linear stability analysis
TL;DR: In this paper, a linear stability analysis of the reaction diffusion convection problem under the quasi-steady-state approximation is performed to classify the various possible instability scenarios, determining the criteria for an instability, obtain dispersion curves both at initial contact time using an analytical implicit solution and at later times via numerical stability analysis.
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Stability of miscible core–annular flows with viscosity stratification
TL;DR: In this paper, the authors investigated the linear stability of variable viscosity, miscible core-annular flows and showed that the flow is stable at any Reynolds number when the magnitude of the viscosities ratio is less than a critical value.
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Linear stability of fluid flow down a porous inclined plane
TL;DR: In this paper, the authors investigate the linear stability of a fluid flowing down an inclined permeable plane by studying the evolution in time of infinitesimal disturbances of long wavelength.